Currently I'm working on overclocking the Raspberry Pi (B revision) and I managed to get it to 1500MHz with a voltmod which allows me to apply any voltage I want. Getting to 1500Mhz was pretty easy, but even if i go only 1MHz above 1500MHz, it will not boot into OS. I'm pretty sure the ARM processor can go faster so I think there must be a lock of some kind. Does anybody know if there is such a lock and maybe where I could look to unlock?

I will check the real frequency, altough I believe it does really run at 1500MHz. Might be worth to try another OS?
Just have to say this, I'm pretty much a noob when it comes to using Linux, so I'm still learning to get along with it.

I could do, but I thought it would look better in the page's edit history if it was a name more familiar to the Pi community, especially as that exact page is quoted as a source of reference in the last line of Raspbian's 'config.txt' file.

Any idea if this voltage mod is legitimate? Looks like the guy is a writer for an online tech news site so I'm inclined to give him the benefit of the doubt. Also it looks like he did some benchmarking.

Since I'm one of the few that actually tried this mod, let me help you with this. See below images(click to enlarge).
I highlighted the areas that you need. For your external supply you can use the blue highlighted ground.
Just make sure it's a solid supply with not to big of a vdroop.

bryanandaimee wrote:Any idea if this voltage mod is legitimate? Looks like the guy is a writer for an online tech news site so I'm inclined to give him the benefit of the doubt. Also it looks like he did some benchmarking.

Does that sound like a possible way to increase the Vcore? I'm tempted to try it. (Yes I know it will void the warranty and likely let out the magic smoke.)

Yes, it does look like a possible way of changing the core voltage. It is also very risky if you don't know what you are doing.

By removing the L5 inductor, you are disconnecting the VDD_CORE inputs from the VDD_OUTn, then by supplying external power across C16 you supply directly into the core. You'd need a very stable and accurate PSU, and I'd be concerned about losses and noise picked up from the wires leading to the supply - it isn't for nothing that part of the circuit is very small and close to the BCM2385.

I can confirm that this sort of mod is real. We did some experiments in the lab and found overclock increased by ~100MHz per 100mV.
I believe we tested to about 2.3V which is way out of spec and it didn't die. I wouldn't like to comment on a chip's lifespan at that voltage.

If someone does want to experiment with this then report what voltages you have tested, what the max stable overclock was, and what "vcgencmd measure_clock arm" reported.

It may be possible to increase the 1500MHz limit, but I'd like to sure exactly what limit is being hit.

When I was testing it, I hit the 1500MHz wall with just over 1.8v and was pretty stable at that point. The only thing that would make the system unstable were the RAM, Core and gpu clocks. This benchmark: http://hwbot.org/submission/2510494_rsn ... 819.02_pps checks the Arm freq like the way you mentioned, so the 1500MHz is real.

When you go for the external PSU mod, just be sure to keep the wires as thick and short as possible to keep the voltagedrop low.

Wow Dom, that is a lot higher than I would have thought to go. With 100 MHz per 100mV, 1500 MHz doesn't sound too hard. That's what I see on mine too. Going from 1.2 to 1.4V, I get 950 to 1150 which is right at 100 MHz per 100mV. So on mine that would translate to over 1500 MHz at 1.8V just as reported.

Thanks for the pics Rsnubje! I have a couple B+ coming, (B+'s?) so I might have to give this a shot with my old model B. Any reason a battery or wall wart and an LM317 would fail misserably? I understand that there are much better ways to do this but I figure simple and cheap would be in keeping with the Pi ethos.

Might depend on what battery you intend to use. If it's some sort of LiPo battery it might work, because these have much more power than just an AA nimh cell or something alike. Just make sure the output is in the 1.0-2.0v range But IMO it would be better to use a constant power source and not something that loses voltage over time as the power drains.